Summary:
For the most part this is straightforward: Just add a CudaInstallation
object to the MSVC and MinGW toolchains.
CudaToolChain has to override computeMSVCVersion so that
Clang::constructJob passes the right version flag to cc1. We have to
modify IsWindowsMSVC and friends in Clang::constructJob to be true when
compiling CUDA device code on Windows for the same reason.
Depends on: D28319
Reviewers: tra
Subscribers: cfe-commits
Differential Revision: https://reviews.llvm.org/D28320
llvm-svn: 291131
Summary:
Previously it was taking the true target triple, which is not really
what it needs: The location of the CUDA installation depends on the host
OS.
Reviewers: tra
Subscribers: cfe-commits
Differential Revision: https://reviews.llvm.org/D28319
llvm-svn: 291130
Summary:
Authored by Senthil Kumar Selvaraj
This patch adds barebones support in Clang for the (experimental) AVR target. It uses the integrated assembler for assembly, and the GNU linker for linking, as lld doesn't know about the target yet.
The DataLayout string is the same as the one in AVRTargetMachine.cpp. The alignment specs look wrong to me, as it's an 8 bit target and all types only need 8 bit alignment. Clang failed with a datalayout mismatch error when I tried to change it, so I left it that way for now.
Reviewers: rsmith, dylanmckay, cfe-commits, rengolin
Subscribers: rengolin, jroelofs, wdng
Differential Revision: https://reviews.llvm.org/D27123
llvm-svn: 291082
Windows uses PE/COFF which is inherently position independent. The use
of the PIC model is unnecessary. In fact, we would generate invalid
code using the ELF PIC model when PIC was enabled previously. Now that
we no longer accept -fPIC and -fpoc, this switches the internal
representation to the static model to permit us to make PIC modules
invalid when targeting Windows. This should not change the code
generation, only the internal state management.
llvm-svn: 290569
This change allows setting the default linker used by the Clang
driver when configuring the build.
Differential Revision: https://reviews.llvm.org/D25263
llvm-svn: 289668
Fix the gcc-config code to support multilib gcc installs properly. This
solves two problems: -mx32 using the 64-bit gcc directory (due to matching
installation triple), and -m32 not respecting gcc-config at all (due to
mismatched installation triple).
In order to fix the former issue, split the multilib scan out of
Generic_GCC::GCCInstallationDetector::ScanLibDirForGCCTriple() (the code
is otherwise unchanged), and call it for each installation found via
gcc-config.
In order to fix the latter issue, split the gcc-config processing out of
Generic_GCC::GCCInstallationDetector::init() and repeat it for all
triples, including extra and biarch triples. The only change
in the gcc-config code itself is adding the call to multilib scan.
Convert the gentoo_linux_gcc_multi_version_tree test input to multilib
x86_64+32+x32 install, and add appropriate tests to linux-header-search
and linux-ld.
Differential Revision: https://reviews.llvm.org/D26887
llvm-svn: 289436
Summary:
The MSVC toolchain and Clang driver combination currently uses a fairly complex
sequence of steps to determine the MS compatibility version to pass to cc1.
There is some oddness in this sequence currently, with some code which inspects
flags in the toolchain, and some code which inspects the triple and local
environment in the driver code.
This change is an attempt to consolidate most of this logic so that
Win32-specific code lives in MSVCToolChain.cpp. I'm not 100% happy with the
split, so any suggestions are welcome.
There are a few things you might want to watch for for specifically:
- On all platforms, if MSVC compatibility flags are provided (and valid), use
those.
- The fallback sequence should be the same as before, but is now consolidated
into MSVCToolChain::getMSVCVersion:
- Otherwise, try to use the Triple.
- Otherwise, on Windows, check the executable.
- Otherwise, on Windows or with --fms-extensions, default to 18.
- Otherwise, we can't determine the version.
- MSVCToolChain::ComputeEffectiveTriple no longer calls the base
ToolChain::ComputeEffectiveClangTriple. The only thing it would change for
Windows the architecture, which we don't care about for the compatibility
version.
- I'm not sure whether this is philosophically correct (but it should
be easy to add back to MSVCToolChain::getMSVCVersionFromTriple if not).
- Previously, Tools.cpp just called getTriple() anyhow, so it doesn't look
like the effective triple was always being used previously anyhow.
Reviewers: hans, compnerd, llvm-commits, rnk
Subscribers: amccarth
Differential Revision: https://reviews.llvm.org/D27477
llvm-svn: 288998
This fixes a bug that was introduced in rL287285. The bug made it
illegal to pass -fsanitize=address during CUDA compilation because the
CudaToolChain class was switched from deriving from the Linux toolchain
class to deriving directly from the ToolChain toolchain class. When
CudaToolChain derived from Linux, it used Linux's getSupportedSanitizers
method, and that method allowed ASAN, but when it switched to deriving
directly from ToolChain, it inherited a getSupportedSanitizers method
that didn't allow for ASAN.
This patch fixes that bug by creating a getSupportedSanitizers method
for CudaToolChain that supports ASAN.
This patch also fixes the test that checks that -fsanitize=address is
passed correctly for CUDA builds. That test didn't used to notice if an
error message was emitted, and that's why it didn't catch this bug when
it was first introduced. With the fix from this patch, that test will
now catch any similar bug in the future.
llvm-svn: 288448
Summary:
Compiling CUDA device code requires us to know the host toolchain,
because CUDA device-side compiles pull in e.g. host headers.
When we only supported Linux compilation, this worked because
CudaToolChain, which is responsible for device-side CUDA compilation,
inherited from the Linux toolchain. But in order to support MacOS,
CudaToolChain needs to take a HostToolChain pointer.
Because a CUDA toolchain now requires a host TC, we no longer will
create a CUDA toolchain from Driver::getToolChain -- you have to go
through CreateOffloadingDeviceToolChains. I am *pretty* sure this is
correct, and that previously any attempt to create a CUDA toolchain
through getToolChain() would eventually have resulted in us throwing
"error: unsupported use of NVPTX for host compilation".
In any case hacking getToolChain to create a CUDA+host toolchain would
be wrong, because a Driver can be reused for multiple compilations,
potentially with different host TCs, and getToolChain will cache the
result, causing us to potentially use a stale host TC.
So that's the main change in this patch.
In addition, we have to pull CudaInstallationDetector out of Generic_GCC
and into a top-level class. It's now used by the Generic_GCC and MachO
toolchains.
Reviewers: tra
Subscribers: rryan, hfinkel, sfantao
Differential Revision: https://reviews.llvm.org/D26774
llvm-svn: 287285
Summary:
This patch includes support for argument translation that is specific of a given offloading kind. Additionally, it implements the translation for OpenMP device kinds in the gcc tool chain.
With this patch, it is possible to compile a functional OpenMP application with offloading capabilities with no separate compilation.
Reviewers: echristo, tra, jlebar, rsmith, ABataev, hfinkel
Subscribers: whchung, mehdi_amini, cfe-commits, Hahnfeld, andreybokhanko, arpith-jacob, carlo.bertolli, caomhin
Differential Revision: https://reviews.llvm.org/D21848
llvm-svn: 285320
System utilities such as atos only support DWARF 4 on OS X 10.11+ and
iOS 9+. We thus want to enable DWARF 4 only if the deployment target
has a recent enough operating system version and use DWARF 2 for older
systems.
<rdar://problem/28766743>
llvm-svn: 284416
Provide toolchain and tool support for Fuchsia operating system.
Fuchsia uses compiler-rt as the runtime library and libc++, libc++abi
and libunwind as the C++ standard library. lld is used as a default
linker.
Differential Revision: https://reviews.llvm.org/D25117
llvm-svn: 283420
We're only going to provide support for using PIE on architectures that
provide PC-relative addressing. i686 is not one of those, so add the
necessary bits for only passing in -pie -zrelro conditionally.
llvm-svn: 278395
Compute an effective triple once per job. Cache the triple in the
prevailing ToolChain for the duration of the job.
Clients which need effective triples now look them up in the ToolChain.
This eliminates wasteful re-computation of effective triples (e.g in
getARMFloatABI()).
While we're at it, delete MachO::ComputeEffectiveClangTriple. It was a
no-op override.
Differential Revision: https://reviews.llvm.org/D22596
llvm-svn: 276937
This reverts commit r275895 in order to address some post-commit review
feedback from Eric Christopher (see: the list thread for r275895).
llvm-svn: 276936
This patch introduces a new cmake variable: CLANG_DEFAULT_RTLIB, thru
which we can specify a default value for -rtlib (libgcc or
compiler-rt) at build time, just like how we set the default C++
stdlib thru CLANG_DEFAULT_CXX_STDLIB.
With these two options, we can configure clang to build binaries on
Linux that have no runtime dependence on any gcc libs (libstdc++ or
libgcc_s).
Patch by Lei Zhang!
Differential Revision: https://reviews.llvm.org/D22663
llvm-svn: 276848
Compute an effective target triple exactly once in ConstructJob(), and
then simply pass around references to it. This eliminates wasteful
re-computation of effective triples (e.g in getARMFloatABI()).
Differential Revision: https://reviews.llvm.org/D22290
llvm-svn: 275895
Summary:
Raise an error if you're using a CUDA installation that's too old for
the requested architectures. In practice, this means that you need a
CUDA 8 install to compile for sm_6*.
Reviewers: tra
Subscribers: cfe-commits
Differential Revision: http://reviews.llvm.org/D21869
llvm-svn: 274781
Summary:
Remove the "Cuda" prefix from these variables -- it's clear that they
related to CUDA given their containing type.
Reviewers: tra
Subscribers: cfe-commits
Differential Revision: http://reviews.llvm.org/D21868
llvm-svn: 274682
This is the second patch required to support compilation for Intel MCU target (e.g. Intel(R) Quark(TM) micro controller D 2000).
When IAMCU triple is used:
* Recognize and use IAMCU GCC toolchain
* Set up include paths
* Forbid C++
Differential Revision: http://reviews.llvm.org/D19274
llvm-svn: 272883
The parameter already requires the toolchain, sink the method into the class.
This also enables the use of the distro detection logic which will be needed to
support Exherbo's multiarch approach.
llvm-svn: 270352
-fms-compatibility-version was defaulting to 18 (VS 2013), which is a pain if your environment is pointing to version 19 (VS 2015) libraries.
If cl.exe can be found, this patch uses its version number as the default instead. It re-uses the existing code to find the Visual Studio binaries folder and WinAPI methods to check its version. You can still explicitly specify a compatibility version on the command line. If you don't have cl.exe, this should be a no-op and you'll get the old default of 18.
This affected the tests, which assumed that if you didn't specific a version, that it would default to 18, but this won't be true for all machines. So a couple test cases had to be eliminated and a couple others had to be tweaked to allow for various outputs.
Addresses: https://llvm.org/bugs/show_bug.cgi?id=27215
Differential Revision: http://reviews.llvm.org/D20136
llvm-svn: 269515
[ Copied from https://llvm.org/bugs/show_bug.cgi?id=26404 ]
clang support on Haiku is lagging a bit, and missing on x86_64.
This patch updates support for x86 and add support for x86_64. It should
apply directly to trunk and it's harmless in the sense that it only
affects Haiku.
Reviewers: rnk, rsmith
Patch by Jérôme Duval
Differential Revision: http://reviews.llvm.org/D16797
llvm-svn: 269201
Summary:
This patch adds a new driver warning -Wincompatible-sdk which notifies the user when they are mismatching the version min options and the sysroot.
The patch works by checking the sysroot (if present) for an SDK name, then matching that against the target platform. In the case of a mismatch it logs a warning.
Reviewers: bob.wilson, rsmith
Subscribers: rsmith, edward-san, cfe-commits
Differential Revision: http://reviews.llvm.org/D18088
llvm-svn: 268127
As we're currently working on making CloudABI executables easier to
emulate in userspace (e.g., on OS X and Windows), it makes a whole lot
of sense to build these using PIE. By using PIE, they can simply be
loaded into the existing process address space without clashes.
PIE support got added to CloudABI's C library and seems to work pretty
well. CloudABI does not make use of an ld.so, so the binary's _start()
has all the logic in it to do the relocations.
Now that all but one bug in LLD relating to PIE support have been
squashed (and a patch for that is already in code review), I'd like to
go ahead and force the use of PIE for Clang 3.9. When released, we'll
also switch over to using LLD exclusively.
llvm-svn: 265546
Over the last month we've been testing SafeStack extensively. As far as
we know, it works perfectly fine. That why I'd like to see us having
this enabled by default for CloudABI.
This change introduces a getDefaultSanitizers() function that toolchains
can use to specify which sanitizers are enabled by default. Once all
flags are processed, only flags that had no -fno-sanitize overrides are
enabled.
Extend the thests for CloudABI to test both the default case and the
case in which we want to explicitly disable SafeStack.
Reviewed by: eugenis, pcc
Differential Revision: http://reviews.llvm.org/D18505
llvm-svn: 264787
Also introduce -stdlib=platform to override the configured value
and use it to make the tests always pass.
Differential Revision: http://reviews.llvm.org/D17286
llvm-svn: 263434
Summary:
This is the clang driver part of the change to embedded bitcode. This
includes:
1. -fembed-bitcode option which breaks down the compilation into two
stages. The first stage emits optimized bitcode and the second stage
compiles bitcode into object file.
2. -fembed-bitcode-marker option which doesn't really break down to
two stages to speedup the compilation flow.
3. pass the correct linker flag to darwin linker if tool chains supports
embedded bitcode.
Reviewers: rsmith, thakis
Subscribers: thakis, cfe-commits
Differential Revision: http://reviews.llvm.org/D17390
llvm-svn: 262282
Summary:
I've got a patchset in my home directory to integrate support for
SafeStack into CloudABI's C library. All of the CloudABI unit tests
still seem to pass. Pretty sweet!
This change adds the necessary changes to Clang to make
-fsanitize=safe-stack work on CloudABI. Without it, passing this command
line flag throws an error.
Reviewers: eugenis, samsonov
Differential Revision: http://reviews.llvm.org/D17243
llvm-svn: 261135
C++ programs compiled for profiling (using `-pg`) should be linked with
`-lc++_p` (or `-lstdc++_p`, depending on the `-stdlib=` setting), not
with the regular C++ libraries.
Add a `FreeBSD::AddCXXStdlibLibArgs()` override to handle this, and add
a test case for it. While here, extend the test case for the proper
passing of -lm and -lm_p.
Reviewers: compnerd, davide, dws, emaste
Reviewed By: compnerd
Differential Revision: http://reviews.llvm.org/D16264
llvm-svn: 260851
With this option one can optionally override the architecture dependent
default library to use if no -stdlib= is provided on compiler invocation.
Differential Revision: http://reviews.llvm.org/D15920
llvm-svn: 260662
Summary:
Previously we compiled CUDA device code to PTX assembly and embedded
that asm as text in our host binary. Now we compile to PTX assembly and
then invoke ptxas to assemble the PTX into a cubin file. We gather the
ptx and cubin files for each of our --cuda-gpu-archs and combine them
using fatbinary, and then embed that into the host binary.
Adds two new command-line flags, -Xcuda_ptxas and -Xcuda_fatbinary,
which pass args down to the external tools.
Reviewers: tra, echristo
Subscribers: cfe-commits, jhen
Differential Revision: http://reviews.llvm.org/D16082
llvm-svn: 257809
Summary:
This is the clang part of D15966. In rL256104, debugger tuning was
added to the clang driver, and again the default for FreeBSD was set to
lldb. The default needs to be gdb instead.
Reviewers: emaste, probinson
Subscribers: cfe-commits, emaste
Differential Revision: http://reviews.llvm.org/D15967
llvm-svn: 257104
Adds driver options named -glldb and -gsce to mean -g plus tuning for
lldb and SCE debuggers respectively; the existing -ggdb option does
the same for gdb. Existing options -ggdb0, -ggdb1 etc. unpack into
-ggdb -g<N>. (There will not be -glldb<N> or -gsce<N> options.) The
tuning gets a target-specific default in the driver, and is passed
into cc1 with the new -debugger-tuning option.
As fallout, fixes where '-gsplit-dwarf -g0' would ignore the -g0 part
on Linux.
Differential Revision: http://reviews.llvm.org/D15651
llvm-svn: 256104
This begins minimal support for invoking 'ld' from clang for WebAssembly
targets.
Differential Revision: http://reviews.llvm.org/D15586
llvm-svn: 255848
Justin Lebar